EFFECT OF MAGNESIA ADDITION ON PHYSICAL PROPERTIES AND SLAG ATTACK RESISTANCE OF ULTRA-LOW CEMENT CASTABLES (ULC)


KALPAKLI Y., Yılmaz Ş.

CANADIAN METALLURGICAL QUARTERLY, cilt.48, ss.177-185, 2009 (SCI İndekslerine Giren Dergi)

  • Cilt numarası: 48 Konu: 2
  • Basım Tarihi: 2009
  • Doi Numarası: 10.1179/000844309794239071
  • Dergi Adı: CANADIAN METALLURGICAL QUARTERLY
  • Sayfa Sayısı: ss.177-185

Özet

In this study, tabular alumina and seawater magnesia were used to synthesize in situ Al(2)O(3)-MgO spinel castables. Secar (R) 71 cement was used as a binder. In order to produce in situ formation of Al(2)O(3)-MgO spinel castables, the effect of MgO content on refractory properties was investigated by adding to the mixture at the proportions of 3, 4, 5, 6, 7 wt%. Using 5 wt% content of MgO decreased the bulk density of castables to 3.03 g/cm(3) and increased the porosity to about 17.43%. In situ spinel formation in samples led to the expansion in its lattice as well as an increase in the porosity. On the other hand, 5 wt% MgO had a positive effect on Cold Crushing Strength (CCS) of the castable. SEM investigations of fired samples were carried out to compare the effect of MgO addition and in situ phase formation on the physico-mechanical properties of castables. The effect of MgO content on the mechanism of slag penetration of ultra-low cement castables (ULC) for steel ladles was examined and the penetration layer was chemically analyzed.

In this study, tabular alumina and seawater magnesia were used to synthesize in situ Al2O3-MgO spinel castables. Secar® 71 cement was used as a binder. In order to produce in situ formation of Al2O3-MgO spinel castables, the effect of MgO content on refractory properties was investigated by adding to the mixture at the proportions of 3, 4, 5, 6, 7 wt%. Using 5 wt% content of MgO decreased the bulk density of castables to 3.03 g/cm3 and increased the porosity to about 17.43%. In situ spinel formation in samples led to the expansion in its lattice as well as an increase in the porosity. On the other hand, 5 wt% MgO had a positive effect on Cold Crushing Strength (CCS) of the castable. SEM investigations of fired samples were carried out to compare the effect of MgO addition and in situ phase formation on the physico-mechanical properties of castables. The effect of MgO content on the mechanism of slag penetration of ultra-low cement castables (ULC) for steel ladles was examined and the penetration layer was chemically analyzed.